Portable modular housing system for mounting and parallel use of electronic device

ABSTRACT

Portable, modular housing system for mounting and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism which consists of two (or more) independent carriers, FIG.  7  ( 2, 3 ) which are connected together with a carrier-housing system, FIG.  1 , through a connection-support mechanism, FIG.  6, 7   a , which includes one or two brackets ( 18 ) respectively, the upper ends of which ( 24 ) are connected through one or more hinges ( 25 ) with the one carrier ( 2 ) while their lower ends ( 19 ) are connected similarly with the other carrier ( 3 ) enabling the independent rotational movement of each carrier ( 2,3 ) up to 360° degrees around the real or imaginary part-axis ( 28   a,    23   a ) of the hinge/s ( 25, 20 ) which connects the ends of the bracket/s ( 18 ) with each carrier ( 2, 3 ). This way, a number of combinations of positions is achieved (fixed or not, depending on whether the hinges are frictional or not) between the entities ( 2, 3 ) FIG.  10,11 , so that the user can select the positions they desire in order to use on-the-spot within the bodies and at the same time the specific objects placed-linked (electronic and personal accessories) at the specific locations-bases FIG.  2 , whether they provide access with the housing system open FIG.  2 , or they provide external access without having to open the housing system FIG.  4.5 . Alongside, the system FIG.  12 , given the possibility of detachment of some external and internal parts of it ( 26, 27 ) by sliding or plug process ( 28, 29 ) enables the user to intervene in an aesthetic and functional level modulating themselves the housing system according to their operational needs and aesthetic preferences.

The invention refers to a housing system consisting of 2 (or more) independent carriers, as fixed in form (design), which features specially designed and shaped parts and cases both inside and outside, for installation or connection of specific electronic and personal accessories such as an electronic tablet, a mobile phone, a wallet, a notebook, etc and spare parts of the housing system. The 2 independent carriers are joined together forming a carrier-housing system, through a specially designed connector-support mechanism that allows the controlled rotational movement of each carrier—independently—at 360° degrees, achieving a number of combination of fixed positions of the 2 carriers together and allowing this way the user to use on-the-spot—which means on the carriers—the accessories contained by selecting the desired position and tilt angle of the carriers. Alongside, the carriers are designed so that one carrier can be connected with another of the same dimensions but also a smaller one can be mounted or connected with a larger one extending the capability of the housing system as far as its functions and the space available is concerned.

Cases-bags of multiple uses for mounting electronic and personal accessories are available on the market but their offer to the user is limited only to the storage and transport of the accessories and not to the on-the-spot and parallel use of them when they are inside the cases-bags. In addition, their volume is fixed and they do not have the ability to connect with other similar ones in order to give the user flexibility in choosing the space and the functionality to suit their needs. Moreover, they lack specific compartments for specific accessories; as a result there is no organization and easy accessibility of the content. Alongside, the existing cases-bags do not allow the possibility of intervention so that they can develop functionally and aesthetically according to the users personal choices.

The advantage of this invention is that it provides perfect organization of the content of the housing system as there are specially designed positions for specific objects-accessories but also direct and convenient accessibility to them due to the ability of the 2 carriers of the housing to open widely, rotating up to 360°. Furthermore, beyond being a storage and transport means, it enables the user to use their electronic tablet, mobile phone, wallet, notebook etc. (for work or for personal use) at the same time and on-the-spot without having to pull them out of their cases and even selecting the desired position-tilt of the 2 carriers between them through a specially designed connector-support mechanism, so that there is comfort and ease of use anywhere. Moreover, the housing system offers the expanding ability since one case can be connected with one of the same size or to a larger one which have more space and functions e.g. speakers etc. Finally, on the specially designed parts inside and outside the user can intervene both aesthetically, by placing specialized parts of their choice with a variety of colors, materials, and also printed with their own themes, and functionally by mounting by choice, accessories like an extra battery for electronic devices, solar panels for battery charging, a keyboard etc.

The Portable, modular housing system for mounting and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism according to the present invention is characterized in that it consists of 2 independent carriers which are designed to accommodate specific objects-accessories at specific locations such as an electronic tablet, a smart phone, a wallet, speakers, a keyboard, pens, keys and other small items assuring perfect organization and direct accessibility since the 2 carriers open widely and rotate up to 360° each, with the help of a connection-support mechanism. Also, they have mainly been designed for parallel and on-the-spot use of the objects carried inside their cases without having to pull them out of them. This is achieved on the one hand because the carriers are upright, i.e. their shape is specific because their frame is made of hard, relatively flexible materials, and on the other hand through the connection-support mechanism that connects the 2 independent carriers together; this consists of 2 brackets the ends of which are connected via hinges (simple or frictional) per pair (upper ends/lower ends) with each one of the 2 carriers. That is to say, the upper end of the one and the corresponding upper end of the other bracket are connected with the lateral exterior walls (or by extension the interior ones too) of one carrier with a frictional or plain hinge. This way of connection allows each of the 2 carriers to rotate independently at 360° around the imaginary (or actual) axis which connects the respective upper and lower ends of the brackets—by means of respective carriers—and thus between the carriers a number of combinations of positions is achieved which can remain stable through a frictional hinge. Finally some inner and outer parts of the carriers can be detached and corresponding sections of different color and material can be placed in position (slide or plug) enabling the user to intervention at a personal aesthetic level. The same can be done with corresponding functional spare parts such as a notebook, speakers, a battery, a solar charger and so on.

The invention is described below with the help of an example and with reference to the attached drawings in which:

FIG. 1 shows an external view of the housing system which consists of 2 main carriers with a specific design according to which, the one carrier on the outside is flat (2) while the other carrier externally is curved (3). The side walls of the housing are flat (4), while the external surfaces of the two main carriers (2, 3) project from the side walls (5) some centimeters depending on the size of the housing. The materials of the housings are hard with relatively flexibility such as plastic, plastic coated with leather, metal or other materials which can support the specific (FIG. 1) or another suitable design so that it remains stable-upright as it is and is not altered by normal stresses etc.

FIG. 2 shows the housing system open with clearly visible the internal spaces of the 2 carriers (2, 3) clearly visible. Internally the 2 carriers are designed to accommodate sliding (28, 29 FIG. 12) (or by fastening), specific objects in specific places such as placing for an electronic tablet (8), a smart phone (9), a wallet (10), speakers (11), a keyboard (12), pens, keys and other small items (13), a notebook (14), a travel wallet (15) etc. assuring perfect organization and immediate accessibility.

The carriers (2.3) FIG. 3, which compose the housing system have various dimensions and designs, depending on the objects they are designed to accept. This way there is a housing system (FIG. 3) for an electronic tablet (8) which also offers 2 side sliding openings (16, 17) for storage, direct independent access (even if the housing system is closed) and on-the-spot use of a mobile phone (16), a wallet that can be placed at the side sliding pocket, opposite the mobile phone(17), as well as an external tray with a lid (18) on the carrier (3) in the mid-section or other external part of it for storage, direct independent access and on-the-site use of a mobile phone, earphones and small items such as keys, etc. Thereby the user does not need to bring in the pockets of their clothes (which is often annoying) any of the basic accessories which usually have on them (such as a mobile phone, a wallet, earphones, keys . . . ) since the housing system is a portable personal station that allows the user not only the ability to store them in a well-organized way but mainly to use them on-the-spot upon it and also at the same time, for instance the tablet (8) simultaneously to the mobile phone (16) (FIG. 5) or directly on the spot and each independently (FIG. 4), even while on the move and the tray system is closed by opening each one of the 3 trays individually (the 2 on the side (16,17) and an external one (18)) depending on the object-accessory they want to use.

In addition the housing system is designed so that the smallest in dimensions (FIG. 3,4,5) can be mounted-connected by sliding it (28,29 FIG. 12) (or plug), while open (19 FIG. 2) into the largest in dimensions (FIG. 2) so as to extend the capabilities that the small case provides the user (FIG. 3,4,5) with the help of the additional accessories available by the large case (FIG. 2).

FIG. 6 shows the connection-support mechanism described in FIG. 7 which instead of 2 brackets on the 2 sides of the housing system, it has got one bracket (18) located in the middle—with regard to the length—of the carriers (2,3), the lower end (19) of which is connected through one (or more) hinge (20) (frictional or plain) with the one carrier (3) in any position—with regard to the width of the carrier—ideally it would be in the middle so as to achieve both a balanced support of the carrier (3) and rotation of it at about 360° degrees around the axis of rotation (23 a) of the hinge (20) (or the single rotation axis of the hinges if they are more than one and are connected through the single rotation axis 23 a). The upper end (24) of the bracket (18) is connected through one (or more) hinge (25) (frictional or plain) with the edge (35) of the carrier (2) and in particular in the middle of the length of the edge the carrier (2), so as, on the one hand, to achieve the connection of the two independent carriers (2,3) together through the ends (19,24) of the bracket (18), on the other hand the rotation by approximately 360° degrees of the flat carrier (2) around the axis of rotation (28 a) of the hinge (25) (or the single rotation axis of the hinges if they are more than one and are connected through the single rotation axis 28 a). The way the two ends (19,24) of the bracket (18) are connected with the two carriers (3,2) respectively, through two hinges (or more, if required due to the weight of the carriers the frictional hinge should hold) but also the way of rotation of the carriers (3,2) by 360°, is the same as that described in FIG. 7.

FIG. 7 shows the housing system with the connection-support mechanism that connects and supports the two carriers (2,3), where the revolving movable brackets are visible (18). The lower ends (19) of the brackets (18) are connected to the curved carrier (3) by hinges (20)—which are located within the curved carrier (3) (without this being necessary since the hinges may be located externally and be visible)—as follows: One rotating part (20 a) of each hinge (20) is connected with the inside of the curved carrier (3) so that they both serve along-simultaneously the rotation of the carrier (3) around the axis (23 a) of the hinge (20) while the other rotating part-axis of each hinge (23 a) is connected to the lower end (19) of each bracket (18) and serve together and simultaneously parallel rotational movement of the two brackets (20) around the axis (23 a) of the hinge (20). Through this connection the possibility of rotational movement of the curved carrier (3) is established up to 360° degrees (this is achieved when the brackets (18) project from the side walls of the carrier (3) that long, so that there's no obstacle from the carriers encountered when they rotate) around the imaginary or real axis (23) which connects the axes (23 a) of the two hinges. In a respective way (at which the two lower ends (19) of the brackets (18) are connected with the carrier (3) in the foregoing description) and the two upper ends (24) of the brackets (18) are connected to the flat carrier (2) by two hinges (25) (frictional or plain) in order to achieve on the one hand the connection of the two independent carriers (2,3) together through the ends (19,24) of the two brackets (18), on the other hand the rotational movement by 360° of the flat carrier (2) around the imaginary or real axis (28) connecting the two upper ends (24) of the two brackets (18) through the rotation axis (28 a) of each hinge (25) and the curved carrier (3) respectively. The way of connection and rotation described above can also be achieved with more than two hinges by connecting now onto the actual axes (23) and (28) more hinges (20, 25) (frictional or simple) so that the rotation axis (23 a, 28 a) of each extra hinge is connected to the axes (23, 28) respectively, while the other rotating part of each hinge (20 a, 25 a) is connected with the carrier (2, 3) respectively. But the way of connection and rotation as described above can also be done through a single hinge for each pair of ends (the upper (24) and lower (19)) of the brackets (18) (i.e. a total of two hinges for the entire housing system) which can perform exactly the same function with 2 or more hinges since the one rotating part of each hinge (20 a, 25 a) can be connected to the carrier (2,3) respectively, while the other rotating part of each hinge (i.e. the rotation axis of it (23 a, 28 a) which is lengthened or connected by both ends to the real axes (23, 28) can be connected to the pairs of the ends (19, 24) respectively of the two brackets (18). The combination of the rotational movements of the two carriers (2,3) offers unlimited combination of positions (FIG. 10.11) of the two carriers which covers all positions and more than those ones offered by the supporting mechanisms of laptops, tablets and pc's currently available on the market and furthermore, with the advantage that the system is portable. In FIG. 7 we see the connection-support mechanism isolated from their carriers (2,3).

FIGS. 8 and 9 show the rotation of the carrier (2) around the axis 28 a and respectively, the carrier rotates (3) too, around the axis of rotation (23 a).

FIG. 12 shows one of the ways by which the external (26, 27) and internal (FIG. 2) spare parts of the two carriers (2,3) can slide through a specific rail to the carrier, enabling the user to intervene in an aesthetic and functional level since they can have a choice among spare parts with various colors and manufactured from various materials that <will dress> the housing system (26,27) as well as operational spare accessories like a solar charger-battery (26,27), speakers, a keyboard, a notebook (FIG. 2) etc. accessories which in a respective way can be applied externally or internally to the housing system. 

1. Portable, modular housing system for installation and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism which consists of two main mutually independent carriers (2,3) FIG. 7, connected together in one carrier-housing system FIG. 1, through a connection-support mechanism FIG. 7a , which is composed of two brackets (18), the two upper ends of which (24) are connected with one carrier (2)—lengthwise or widthwise—through (one for each end) a plain or frictional hinge (25) for controlled stabilization of rotational movement of the carrier (2), while the lower ends (19) of the brackets (18) are connected to the other carrier (3)—lengthwise or widthwise—through (one for each end) plain hinge or frictional hinge (20) for controlled stabilization of the rotational movement of the other carrier (3). In both connections the one part (20 a, 25 a) of each hinge (20,25) respectively is fixed-attached onto the corresponding carriers (3.2) while the other part-axis (23 a, 28 a) of each hinge (20,25) respectively, is fixed-attached onto the respective ends (19,24) of the brackets associated with the respective carrier (3,2). The result of this connection is that independent rotational movement of each carrier (3, 2) is achieved—with controlled or not stabilization of it at specific positions depending on whether a frictional or a plain hinge—up to 360° degrees around the imaginary or real rotation axis (23,28) of each hinge (20,25), which connects the respective ends of the brackets (19,24), so as to offer an option of a number of combinations of positions between the two carriers FIG. 10,11. This enables the usability of objects the housing system bears on-the-spot without having to pull them out of it and even in a portable level. In particular the rotation by 360° is achieved when the brackets (18) are connected by the lateral external walls of each carrier (3,2) to this (carrier), so that while rotating, it is not blocked by the presence of the brackets (18), or when they are connected to other parts of the carrier (by length or height) and the carrier has the appropriate notches which enable it to rotate by 360° without being blocked by the bracket since during rotation when the notches of the carrier meet the bracket they will penetrate it lengthwise, otherwise if the appropriate notches do not exist, the rotational movement is less than 360° depending on the carrier and the connection point of the end of the bracket with it.
 2. Portable, modular housing system for mounting and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism FIG. 6, comprising of two main mutually independent carriers (3,2) connected together to a carrier-housing system FIG. 6 through a connection-support mechanism which can consist of a single bracket (18) both ends of which (19,24) are connected with two independent carriers (3,2) (one end for each carrier) in the exactly respective way the two brackets are connected (18) FIG. 7 (as described in claim 1) with the difference that the connection point of the ends (19,24) of the bracket (18) with the two carriers (3,2) respectively, is in the middle of the length of the two carriers (3.2) (vertically to the rotation axis (23 a, 28 a) of the carriers), while the connection as far as the width is concerned is on one carrier (2) at its edge (35)—while on the carrier (3) it can be in any position concerning the width, especially in the middle where the best support and rotation of the carrier is achieved (3) by approximately 360° with regard to the rotation axis (23 a) of the hinge (20).
 3. Portable, modular housing system for mounting and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism according to claim 1, FIG. 7, characterized by the connection of the upper ends (24) of the brackets (18) with one of the carriers (2), is achieved only through the rotation axis (28) without any hinge, so there is no friction, but only free rotational movement of carrier 2, or of only one hinge (25 c) one rotating part of which (25 a) is fixed-linked with the carrier (2) while the other rotating part-axis (28 a) projects from both sides of the hinge (25 c) that long, as to meet and connect with the upper ends (24) of the brackets (18), thereby achieving the rotational movement of the carrier (2) by 360° around the rotation axis (28 a) of the hinge (25 c). The same may also happen respectively by connecting the lower ends (19) of the brackets (18) with the other carrier (3) only by the rotation axis (23) without a hinge, or by only one hinge (20 c). Every combination of the reported in the claims way of connecting the ends of the brackets (18) with the carriers (2, 3) is possible with the corresponding effect with regard to the rotation of each carrier (2,3).
 4. Portable, modular housing system for mounting and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism according to claim 1, FIG. 7, which is characterized by the fact that the connection of the upper and lower ends (24,19) of the brackets (18) with the corresponding carriers (2,3) can also be done through more than two (for each carrier (2,3)) hinges (25,20) where the hinges (25,20) are connected together in order with a common rotation axis (28 a, 23 a)) in a relative manner to that described in claim
 1. 5. Portable, modular housing system for mounting and on-spot and parallel use of electronic and personal accessories through connection-support mechanism according to claim 1, FIG. 7, which is characterized by the fact that the hinges (20, 25) connecting the brackets (18) with the carriers (3.2) can be located inside the carriers (3.2) so as not to be visible FIG. 7, but they can also be external as well and therefore be visible.
 6. Portable, modular housing system for mounting and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism according to claim 1, FIG. 6,7, which is characterized by the fact that one or more brackets (18) of the connection-support mechanism can be extended to allow the possibility of increasing-decreasing their length. In this case each bracket is composed of two individual sections where one is dragged within the other—in order to be extended, and vice versa by friction so that resistance exists and can support the weight of each carrier (2,3).
 7. Portable, modular housing system for mounting and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism according to claim 1 which is characterized by the fact that the connection-support mechanism FIG. 6,7 a can be applied especially to portable computers (laptop) where one carrier is the monitor and the other is the base of the electronic systems (hard disk, etc.) and the keyboard, allowing the choice of a number of combinations of positions of the 2 carriers, or to a desktop computer where the hard drive is small and can be mounted onto one carrier with the keyboard etc. while the other carrier will be the monitor, converting even the desktop computer into a portable one with the capability of supporting the monitor in numerous positions. It can also be applied in a corresponding manner as a connection-support mechanism and individually where one carrier is a smart mobile phone, a phablet, an electronic tablet or even in combination with another other accessories like a keyboard, which can be adjusted to the other carrier.
 8. Portable, modular housing system for mounting and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism according to claim 1 which is characterized by the fact that the independent carriers (2,3) FIG. 6,7, are bound together by a connection-support mechanism FIG. 6,7 a to a carrier-housing FIG. 1 and are such in design according to which when the housing system is closed then the one side of one carrier (2) comes into contact with one side of the other carrier (3) in such a way that the housing system closes and the content of the carriers is not visible and/or exposed. This condition in conjunction with the range of the desired rotational movement of the carriers (2,3) around the rotational axes (28 a, 23 a) determines the length and the shape of the brackets (18) in relation to the position of each carrier (2,3) in which the ends or selected points of the brackets (18), are connected through hinges (25,20) with each carrier (2,3). As far as the exterior design (shape) of the remaining part of each carrier (2,3) is concerned—besides the 2 sides that come in contact in order that the housing system closes so that the content is not visible or exposed—there are no restrictions so it may be curved, flat or whatever serves the purpose for which each carrier is designed.
 9. Portable, modular housing system for mounting and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism according to claim 1 which is characterized by the fact that the two carriers (2,3) which when connected with the connection-support mechanism FIG. 6,7 a compose the housing system, may be even more than two and connected all together in a relative way by using a second and third connection-support mechanism and so on extending it from a housing system to a multi-housing system.
 10. Portable, modular housing system for mounting and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism according to claim 1 which is characterized by the fact that the two carriers (2,3) FIG. 2,3,4,5 are designed to have specific positions—foundations for on-the-spot use,—internally and externally—for specific items like an electronic tablet, a smart phone, a headset, a keyboard, speakers, a battery, a solar charger, a wallet , a notebook etc. but also for specific spare parts, (26,27) FIG. 12 while parts of the external and internal surface of the carriers of the housing system can be detached and replaced by relative parts providing diversity aesthetically with variety of colors and materials. Therefore, the user can modulate functionally and aesthetically the housing system according to their own operational needs and aesthetic preferences but also use the objects contained in parallel and such onto their positions without having to pull them out of them (with the help of a connection-support mechanism FIG. 6,7 a which supports the 2 carriers (2,3) in the desired position for use by the user, claims 2, 3, 4) and without having to open the housing system when the positions of the objects have external access, FIG.
 4. The objects and the spare parts are placed in their positions by sliding guides (rails) (28,29) FIG. 12, while some cases feature on parts of their side walls arched plates which are pressed when the object or the spare part enters them and they are held firmly in place. Also the outer positions (bases for on-the-spot use), FIG. 4 embedded in the side walls of the carriers are sliding in order that when the user wishes to use the objects contained, they push the front of the sliding position inwards and this opens automatically by a spring or plate mechanism, and reveals the object contained which is ready for use in the place-base situated without having to open the main carrier of the housing system in the centre. Therefore a housing system can be connected with a larger housing system with the same method mentioned above (in a sliding way, by plug, by arched plates) extending the functionality that the smallest housing system has.
 11. Portable, modular housing system for mounting and on-the-spot and parallel use of electronic and personal accessories through a connection-support mechanism according to claim 1 which is characterized by the fact that the two carriers (2,3) FIG. 7, may be joined together by a single-shared “spine” (from the same or other material) with relative flexibility, in order to allow the rotation of the carrier (2) around the imaginary axis of the “spine”, whereby in this case the mechanism FIG. 7a , ceases to function as a means of connecting the carriers (2,3) and consequently the upper ends (24) of the brackets (18) are connected or linked as one body with the real axis (28), which is now independent (has no common point) of the carrier (2), however continues to function as a means of support and rotation of the carrier (3) since the lower ends (19) of the brackets(18) are connected to the carrier (3)—lengthwise or widthwise of it—through (one for each end) a plain or a frictional hinge (20) for controlled stabilization-support of the rotational movement of the carrier (3). 